Maximum Security/Maximum Versatility Ball Mount Assembly

ABSTRACT

The maximum security/maximum versatility ball mount assembly provides an assembly for securing a ball mount or other accessory shank to a receiver hitch on automotive vehicles, tractors, ATVs, and other vehicles equipped with a receiver-type hitch. As the shank of a hitch accessory or implement is inserted into a receiver, dual retractable hitch pins automatically engage the receiver when the pins align with the two hitch-pin apertures in the receiver tube, thereby securing the ball mount/accessory&#39;s shank to the vehicle&#39;s receiver. A shank end cap shields the hitch pin assembly&#39;s internal components from dirt and/or rust particles, and the end cap also serves as an innovative and useful alignment aid when inserting the shank into a vehicle&#39;s receiver.

CROSS REFERENCE TO RELATED PATENT APPLICATIONS

This application claims the benefit of U.S. Provisional Application No.61/073,100, filed on Jun. 17, 2008. This application is also acontinuation-in-part of U.S. application Ser. No. 12/025,990, filed Feb.5, 2008, which claims the benefit of U.S. Provisional Application No.60/899,609, filed on Feb. 5, 2007, and U.S. Provisional Application No.60/993,781, filed on Sep. 14, 2007, and is a continuation-in-part ofU.S. application Ser. No. 11/372,748, filed on Mar. 10, 2006, and U.S.application Ser. No. 11/732,117, filed on Apr. 2, 2007. All of the aboveapplications are herein incorporated by reference in their entirety.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates generally to trailer hitch accessories,and more particularly, to an improved ball mount assembly that providesa convenient and easy method of engaging and disengaging a ballmount/accessory shank in a trailer hitch receiver tube as well as amethod of locking the shank to the receiver. The invention also providesan innovative and highly effective method of attaching additional hitchaccessories (such as but not limited to an anti-decoupler safety device)to the ball mount without interfering with the proper towing operationof the hitch ball and trailer socket, resulting in a ball mount assemblywith improved safety features.

2. Description of the Related Art

In recent years, the number, variety and type of trailer hitch pinsand/or locking pins have increased significantly. However, in mostcases, most of the pins are designed to be inserted through theapertures in the receiver which, in the majority of cases, are notconveniently located or easily accessible. In addition, when inserted,the pin generally is located directly above or in front of thereceiver's safety chain connection loop/ring mounts and oftentimescomponents of the protruded hitch pin or locking hitch pin interferewith the proper fastening of safety chains. Without adequate clearanceto fasten safety chains to the receiver using properly sized quicklinks, S-hooks, snap hooks, grab hooks, latch hooks or the like, theremay be a tendency to utilize undersized links or hooks to attach thechains causing a potential safety concern. Additionally, based upon thelocation of the receiver's apertures and owing to the inability to seewhen the ball mount and receiver apertures are aligned for pinning,people will frequently use a finger to feel when the holes are aligned,oftentimes resulting in pinched fingers. In addition, numerousconventional hitch pin locks currently available in the market utilizerubber o-rings in the locking mechanism. While the o-rings are effectivein keeping foreign particles out of the locking mechanism, they oftenmake it more difficult to determine with certainty that the lock is infact engaged to the hitch pin. Ensuring the lock is engaged to the hitchpin is increasingly more difficult to determine when the receiverapertures are not conveniently located, in darkness, and/or in inclementweather.

While some assemblies have utilized dual retractable pins in lieu of aremovable standard hitch pin or locking hitch pin, they generallyconsist of an integral locking mechanism necessitating a key foroperation (for example as in the assembly described in U.S. Pat. No.7,104,563). In addition to the added expense of a built-in lockassembly, the engagement pins must be in a retracted or engaged positionto remove the key (i.e., the ball mount can not be engaged or disengagedfrom the receiver without the use of a key). With the advent of receiverhitches on numerous off-road vehicles such as ATVs, golf carts, lawn andgarden tractors, etc., consumers today want to utilize their hitchequipment interchangeably among vehicles conveniently without theinconvenience and constraints associated with mandatory lock and keyoperation. A much more practical and desirable assembly is one thatpermits the engagement pins to be unlocked and disengaged for easyremoval without necessitating lock and key operation, but also provide amethod for optionally locking the ball mount to the receiver when sodesired.

Although the number and variety of hitch-mounted automotive and truckaccessories continues to increase, use of the accessories is limitedsince conventional receiver-type hitches generally consist of only asingle receiver tube, and, with the exception of the inventor'sMulti-Task Trailer Hitch Assembly disclosed in U.S. Patent ApplicationPublication No. 2006/0214391 A1, conventional ball mounts generally donot accommodate the attachment of additional hitch accessories.Consequently, utilizing an accessory generally precludes the ability totow since use of an accessory necessitates removing the ball mount toinsert a different accessory such as a tow hook, shackle, hitch-step,carry-all, bicycle carrier, etc. Some products have been introduced thatattach to a ball mount platform like the hitching-apparatus of U.S. Pat.No. 5,697,630 and the safety hold-down device and hitch guide fortrailer decoupling prevention of U.S. Pat. No. 6,969,085 B2.Shortcomings with these products, however, are that they either aresecured to the ball mount platform via the trailer ball and cooperatingfastener, or do not provide adequate clearance for the universalcoupling and unobstructed operation of the various types and styles oftrailer tongues on commercial trailers. By securing an accessory to theball mount via the hitch ball and nut as described in both U.S. Pat.Nos. 5,697,630 and 6,969,085 B2, use of the accessory can apply torqueto the accessory's mounting base secured by the hitch ball causingpotential ball spin that can loosen the hitch ball.

Thus, a maximum security/maximum versatility ball mount assemblyincorporating a self-engaging receiver/hitch pin assembly and accessorysupport base solving at least some of the aforementioned problems isdesirable.

SUMMARY OF THE INVENTION

A self-engaging receiver/hitch pin assembly of the present inventionprovides an inexpensive, highly-effective and convenient method ofsecuring the shank of a ball mount or other hitch-mounted accessory to avehicle's receiver hitch. A shank end cap shields the hitch pinassembly's internal components from dirt and/or rust particles, and theend cap also serves as an innovative and useful alignment aid wheninserting the shank into a vehicle's receiver. An extended ball mountplatform of the present invention also provides an innovative andinexpensive accessory support base for conveniently attaching additionalconventional hitch accessories to the ball mount platform in a highlyeffective manner.

The present invention provides a hitch pin assembly housed within theshank of a ball mount or shank of other hitch mounted accessories. Theball mount, or other accessory shank, is inserted into a vehicle'sreceiver simply by compressing dual hitch engagement pins and insertingthe shank into the vehicle's receiver. As the shank is being furtherinserted into the receiver, when the dual hitch engagement pins becomealigned with the receiver's apertures, the pins automatically becomeactuated to an extended position and secure the ball mount to thereceiver. The ball mount or other accessory is disengaged from thereceiver by compressing the dual hitch engagement pins to a retractedposition and withdrawing the ball mount from the receiver. When the ballmount or other accessory is hitched to the receiver and the dual hitchengagement pins are in the extended position, the pins can automaticallybe locked in the extended position, or, in a different embodiment,optionally be locked into the extended position with the use of aninexpensive standard hitch pin simply by inserting a standard hitch pinthough a pair of easily accessible apertures strategically andconveniently placed on the ball mount's shank rearward of the vehicle'sreceiver. Alternatively, as an anti-theft measure, the ball mount orother accessory can be locked to the receiver by using a standardlocking hitch pin in lieu of using a standard non-locking hitch pin.

In one embodiment, the self-engaging receiver/hitch pin assembly ismounted in the hollow shank of a ball mount wherein the dual hitchengagement pins are compressed to the retracted position for removingthe assembly from the receiver. In another embodiment, the dual hitchengagement pins are automatically locked into place when they are in theextended position, regardless of whether the assembly is locked to thereceiver as an anti-theft measure. In another embodiment, by modifyingthe engagement pin locking method, the assembly is retrofitted into anexisting accessory's shank without necessitating the drilling ofapertures in the shank being retrofitted. In another embodiment, theself-engaging receiver/hitch pin assembly is mounted in a solid shank.In another embodiment, the pin assembly is mounted on an I-beam typeshank. In another embodiment, the self-engaging receiver/hitch pinassembly is mounted in the shank of another hitch mounted accessory suchas a tow hook. In other embodiments, the invention includes multiplemethods of securing conventional hitch accessories to the ball mount.

One vehicle ball mount assembly of the invention comprises a shankhaving a top surface with a ball mount platform attached to the shank.An accessory support base extends above the top surface of the shank andthe ball mount platform.

Another vehicle ball mount assembly comprises a shank, a ball mountplatform attached to the shank, a collar configured to removably engagethe shank, a lower ball mount platform connected to the collar andextending below and beyond the ball mount platform, a support sleeveconfigured to releasably engage the lower ball mount platform, and a towball mounted on the ball mount platform and having a shank configured toengage the support sleeve.

A vehicle towing assembly comprises a shank and a tow ring mounted onthe shank.

It is an aspect of the invention to provide improved elements andarrangements thereof for the purposes described herein which isinexpensive, dependable, and effective in accomplishing its intendedpurposes.

These and other aspects of the present invention will become readilyapparent upon further review of the following specification anddrawings.

BRIEF DESCRIPTION OF THE DRAWINGS

Additional advantages and details of the invention are explained ingreater detail below with references to the exemplary embodimentsillustrated in the accompanying drawing figures wherein like referencesymbols identify like parts throughout.

FIG. 1 is an exploded view of a maximum security/maximum versatilityball mount assembly of the present invention;

FIG. 1A is a side elevation view of the maximum security/maximumversatility ball mount assembly of FIG. 1;

FIG. 1B is a side elevation view of the maximum security/maximumversatility ball mount assembly of FIG. 1 with the accessory supportbase shown in an alternate position;

FIG. 2 is an exploded view of the internal components of the maximumsecurity/maximum versatility ball mount assembly of FIG. 1;

FIG. 3 is a perspective view of the internal components of FIG. 2;

FIG. 4 is a side elevation view of another embodiment of FIG. 1 with analternative accessory support base;

FIG. 5 is a side elevation view of yet another embodiment of FIG. 1 withthe accessory support base mounted on the shank of an adjustable heightball mount;

FIG. 6 is a side elevation view of another embodiment of FIG. 1 with theaccessory support base mounted on the sleeve of an adjustable heightball mount;

FIG. 7 is a side elevation view of another embodiment of FIG. 1 with theaccessory support base mounted on the shank of a ball mount;

FIG. 7A is a side elevation view of another embodiment of FIG. 1 withthe accessory support base mounted on the shank of a ball mount withouta ball mount platform;

FIG. 7B is a side rear perspective view of another embodiment of FIG. 1with the accessory support base shown as square tubing mounted on theshank of a ball mount;

FIG. 7C is a side rear perspective view of another embodiment of FIG. 1with the accessory support base shown as a hexagon mounted on the shankof a ball mount;

FIG. 7D is a side rear perspective view of another embodiment of FIG. 1with the accessory support base shown as a hexagon including a flangethat is mounted on the shank of a ball mount;

FIG. 8 is a side elevation view of another embodiment of FIG. 1 with theaccessory support base mounted on a sleeve that fits over the shank of aball mount;

FIG. 8A is a side elevation view of another embodiment of FIG. 1 withthe accessory support base mounted on a sleeve that fits over the shankof a ball mount without a ball mount platform;

FIG. 8B is a side rear perspective view of another embodiment of FIG. 1with the accessory support base shown as square tubing mounted on asleeve that fits over the shank of a ball mount;

FIG. 8C is a side rear perspective view of another embodiment of FIG. 1with the accessory support base shown as a hexagon mounted on a sleevethat fits over the shank of a ball mount;

FIG. 8D is a side rear perspective view of another embodiment of FIG. 1with the accessory support base shown as a hexagon including a flangethat is mounted on a sleeve that fits over the shank of a ball mount;

FIG. 8E is a side rear perspective view of another embodiment of FIG. 1with the accessory support base shown as a support member for bracingand/or supporting additional ball mount structure;

FIG. 8F is a side rear perspective view of another embodiment of FIG. 1with accessory support base shown as a support member for bracing and/orsupporting additional ball mount structure attached to the ball mount inan alternate position;

FIG. 8G is a side elevation view of another embodiment of FIG. 1 with amodified accessory support base shown as a support member for bracingand/or supporting additional ball mount structure;

FIG. 8H is a side elevation view of another embodiment of FIG. 1 with amodified tow ring for retrofitting an existing ball mount;

FIG. 8I is a forward side perspective view of the embodiment of FIG. 1;

FIG. 8J is a forward side perspective view of an alternate embodiment ofFIG. 8E;

FIG. 8K is a forward side perspective view of the embodiment of FIG. 8Jwith an additional support member;

FIG. 8L is a side elevation view of the embodiment of FIG. 8J;

FIGS. 8L1-8L6 illustrate other embodiments of the invention;

FIG. 8M is a side rear perspective view of an alternate embodiment ofFIG. 1 wherein the ball mount's accessory support base member functionsas a gusset in supporting an accessory receiver tube;

FIG. 8N is a side elevation view of an alternate embodiment of FIGS. 8J,8K and 8L;

FIG. 8O is a side elevation view of another illustration of theembodiment of FIG. 8N;

FIGS. 8P and 8Q are side rear perspective views of additionalillustrations of the embodiment of FIG. 8N;

FIG. 8R is a side elevation view of another embodiment of FIG. 1;

FIG. 8S is a side elevation view of yet another embodiment of FIG. 1;

FIG. 8T is a side elevation view of still yet another embodiment of FIG.1;

FIG. 8U is a side elevation view of an alternate embodiment of FIG. 8S;

FIG. 8V is a side rear perspective view of another embodiment of themaximum security/maximum versatility ball mount assembly;

FIG. 8W is a side elevation view of the embodiment of FIG. 8U modifiedto include the embodiment of FIG. 8V;

FIG. 8X is a side elevation view of a modified embodiment of FIG. 8W;

FIGS. 8Y1 through 8Y6 are side elevation views of alternate designs ofthe embodiment of FIG. 8S;

FIG. 8Y6A is an alternate configuration of the invention;

FIG. 9 is an exploded view of the maximum security/maximum versatilityball mount assembly utilizing an alternate engagement pin lockingmethod;

FIG. 10 is an exploded view of the components of the maximumsecurity/maximum versatility ball mount assembly of FIG. 9;

FIG. 11 is a perspective view of the components of the maximumsecurity/maximum versatility ball mount assembly of FIG. 10;

FIG. 12 is an exploded view of the ball mount shank end cap of themaximum security/maximum versatility ball mount assembly of FIG. 1;

FIG. 13 is an exploded view of an alternate ball mount shank end cap ofFIG. 12;

FIG. 14 is an exploded view of a hollow ball mount shank with a modifiedend of the maximum security/maximum versatility ball mount assembly ofFIG. 1;

FIG. 15 is an exploded view of a solid ball mount shank with a modifiedend of the maximum security/maximum versatility ball mount assembly ofFIG. 1;

FIG. 16 is an exploded view of the maximum security/maximum versatilityball mount assembly of FIG. 9 mounted on a solid shank;

FIG. 17 is an exploded view of the maximum security/maximum versatilityball mount assembly of FIG. 9 mounted on an I-beam shank;

FIG. 18 is an exploded view of the maximum security/maximum versatilityball mount assembly mounted in the shank of a tow hook;

FIG. 19 is a side elevation view of an alternate embodiment of theembodiment of FIG. 8N;

FIG. 19A is an alternate embodiment similar to that of FIG. 19;

FIG. 20 is a side elevation view of yet another alternate embodiment ofthe embodiment of FIG. 8N;

FIG. 21 is a side elevation view of an alternate embodiment of theembodiment of FIG. 19;

FIG. 22 is a side elevation view of an alternate embodiment of theembodiment of FIG. 20;

FIG. 23 is a side elevation view of an alternate embodiment of theembodiment of FIG. 21;

FIG. 24 is a side elevation view of an alternate embodiment of theembodiment of FIG. 22;

FIG. 25 is a side elevation view of an alternate embodiment of theembodiment of FIG. 23;

FIG. 26 is a side elevation view of an alternate embodiment of theembodiment of FIG. 8S;

FIG. 27 is a side elevation view of an alternate embodiment of theembodiment of FIG. 8U;

FIG. 28 is an alternate embodiment of the embodiment of FIGS. 8R and 8U;

FIG. 29 is an alternate embodiment of the embodiment of FIG. 28;

FIG. 30 is a side view of a tow ball shank;

FIG. 31 is a side view of a further embodiment of the invention; and

FIGS. 32 and 33 are still further embodiments of the invention.

Similar reference characters denote corresponding features consistentlythroughout the attached drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

As used herein, spatial or directional terms, such as “top,” “bottom,”“left,” “right,” “over,” “under,” “front,” “rear,” and the like, relateto the invention as it is shown in the drawing figures. However, it isto be understood that the invention can assume various alternativeorientations, and, accordingly, such terms are not to be considered aslimiting. Further, all numbers expressing dimensions, physicalcharacteristics, and so forth, used in the specification, figures, andclaims are to be understood as being modified in all instances by theterm “about.” Accordingly, unless indicated to the contrary, thenumerical values set forth in the following specification, figures, andclaims can vary depending upon the desired properties sought to beobtained by the present invention. At the very least, and not as anattempt to limit the application of the doctrine of equivalents to thescope of the claims, each numerical parameter should at least beconstrued in light of the number of reported significant digits and byapplying ordinary rounding techniques. The dimensions set forth on theaccompanying drawing figures are for one exemplary embodiment of theinvention and it is to be understood that the invention is not limitedto the specifically disclosed dimensions. All references referred toherein are to be understood as being incorporated by reference in theirentirety.

The ball mount and accessory shanks illustrated in the drawings areintended to be illustrative and not exhaustive.

Referring to FIG. 1, there is shown an environmental perspective view ofa first embodiment of an inventive maximum security/maximum versatilityball mount assembly referred to by the reference number 10. The assembly10 performs the function of a standard hitch pin and ball mount that canoptionally be locked to a vehicle's receiver R and provides an accessorysupport base for attaching any additional conventional hitch accessoryto the ball mount. The assembly includes a ball mount or accessory shank15 and one or more, e.g., a pair, of biasing dual hitch engagement pins20 that are compressed to permit the assembly to easily be inserted andwithdrawn from a receiver with minimal effort, while still maintaining asecure connection. The assembly farther includes an extended ball mountplatform 60 that, in addition to accommodating the hitch ball, serves asan attachment base for securing other conventional-type hitchaccessories to the assembly.

The maximum security/maximum versatility ball mount assembly 10 includesa ball mount shank 15 with a hollow housing cavity 16 and two apertures18 which align with biasing dual hitch engagement pins 20. The ballmount shank also includes one or more, e.g., two, apertures 19 evenlyspaced rearward from apertures 18. When the dual hitch engagement pins20 are in the fully retracted position, they become flush with theoutside surface of dual hitch engagement pin subassembly 30 permittingsubassembly 50 to be inserted into hollow housing cavity 16. Whensubassembly 50 is fully inserted into housing cavity 16 of ball mountshank 15, dual hitch engagement pins 20 become actuated to an extendedposition and secure the subassembly to ball mount shank 15.

The maximum security/maximum versatility ball mount assembly 10generally includes a ball mount platform 60, ball mount shank 15, and anintegral self-engaging receiver/hitch pin subassembly 50 having a dualhitch engagement pin subassembly 30 and standard hitch pin housing 40.The dual hitch engagement pin subassembly 30, shown in FIG. 2, generallyincludes dual hitch engagement pins 20, a biasing means, such as aspring, 21, and housing 32. Housing 32 as shown includes a main body 34and dual side plates 36. Dual side plates 36 include apertures 37through which dual hitch engagement pins 20 extend and apertures 38through which screws 39 extend to mount dual side plates 36 to housing32. The biasing means 21 applies force on the dual hitch engagement pins20 forcing them outward into the engaged position.

Standard hitch pin housing 40 includes throughbore 42 between sides 44and slot 46 in forward end 48. Slot 46 extends from forward end 48 intothroughbore 42. When self-engaging receiver/hitch pin subassembly 50 isinserted into position in hollow housing cavity 16, throughbore 42 instandard hitch pin housing 40 is aligned with apertures 19 in shank 15.

Self-engaging receiver/hitch pin subassembly 50 also contains a hitchengagement pin locking lever 52 for locking engagement pins 20 in theextended position when desirable and/or locking the ball mount to thereceiver. Engagement pin locking lever 52 slides forward and rearwardbetween dual hitch engagement pin housing 32 and standard hitch pinhousing 40. Locking lever 52 has an engagement pin locking tab 54 and anactuating tab 56. In the forward (locked) position, locking tab 54extends to a position in between dual hitch engagement pins 20 lockingthem in the extended position. In the rearward (unlocked) position,locking tab 54 retracts from its position between hitch engagement pins20, and, through slot 46, actuating tab 56 protrudes slightly intothroughbore 42. Locking lever 52 is normally retained in the unlockedposition with a biasing means, such as a spring 58 shown in FIG. 1.

Assembled ball mount shank 15 is inserted into receiver R by compressingdual hitch engagement pins 20 until they are flush with the outersurface of ball mount shank 15, then sliding the shank into the receiverR until hitch engagement pins 20 begin to recess into the receiver R.Once a portion of hitch engagement pins 20 are within the receiver R,they will remain in the retracted position. As assembled ball mountshank 15 is being inserted into housing cavity 62 of receiver R, whendual hitch engagement pins 20 become aligned with apertures 64 in thereceiver R, they are automatically actuated to an extended positionoutward through apertures 64 thereby securing the maximumsecurity/maximum versatility ball mount assembly 10 to the receiver R.

Dual engagement hitch pins 20 can be locked in place by inserting astandard hitch pin 17 through apertures 19 on shank 15. When inserting astandard hitch pin 17 through apertures 19, the pin contacts actuatingtab 56 on locking lever 52 causing locking lever 52 to move into theforward position extending engagement pin locking tab 54 between dualhitch engagement pins 20 thereby locking hitch engagement pins 20 in theextended position.

The assembly 10 can be locked to the receiver R by inserting a standardlocking hitch pin (not shown) through apertures 19 on shank 15 in lieuof using a standard non-locking hitch pin 17.

In the current art, the uppermost surface 62 of an industry standardball mount platform 60 generally extends a minimal distance above thetop side 14 of ball mount shank 15, as represented by dotted line 63(FIG. 2), providing a surface for welding the upper portion 62 of ballmount platform 60 to topside 14 of ball mount shank 15. The assembly 10of the present invention embodies inventive ball mount platform 60featuring an extended vertical platform section 64.

Extended vertical platform section 64 (herein after referred to asaccessory support base 64) of ball mount platform 60 serves as a supportbase for attaching any conventional hitch accessory to the assembly 10.As shown in FIG. 1, accessory support base 64 serves as a support basefor engaging accessory attachment base 70. As shown, accessory supportbase 64 contains thoughbore 65 extending between accessory support basesides 66 that align with throughbores 72 on accessory attachment base 70when accessory attachment base 70 is engaged to, and seated on,accessory support base 64. A standard-type pin or locking-type pin (notshown) is inserted through apertures 72 on accessory attachment base 70and 65 on accessory support base 64 of ball mount platform 60 to securehitch accessory to the Assembly 10. Accessory support base 64 is shownin a vertical position (perpendicular to portion of ball mount platformthat houses hitch ball) but can be in an acute, obtuse or horizontalposition as shown in FIG. 1A or combination of positions (such asvertical and horizontal) as shown in FIG. 1B. FIG. 1B shows a first leg(vertical) and a second leg (horizontal) at an angle from each other. Asshown in FIGS. 1A and 1B, accessory support base 64 may contain verticalthroughbore 61 for facilitating the attachment of a tow ball.Throughbore 61 may also be useful for attaching a shackle or otheraccessory to accessory support base 64. Throughbore 61 may also be usedfor pinning an accessory attachment base 70 to accessory support base64. Additionally, although accessory support base 64 is shown as squarein configuration, accessory support base 64 can be of numerousconfigurations, such as rectangular, triangular, etc., without departingfrom the scope of this invention. In addition, although shown withcircular-shaped throughbore 65 in accessory support base 64, as can beappreciated by one skilled in the art, accessory support base 64 can beof numerous configurations to secure accessory attachment base 70 toaccessory support base 64. For example, accessory support base 64 mayhave one or more bores or throughbores on its sides 66, forward face 67,rearward face 68 and/or top 69. Bores may, or may not, contain aninternal thread convolution. Bores may be circular or noncircular inshape, and in a conforming configurations with bores 72 on accessoryattachment base 70, may be in the form of other shapes such as, but notlimited to, D shaped, star shaped, square shaped, rectangular shaped,triangular shaped, pentagon shaped, hexagon shaped, octagon shaped, etc.Additionally, as will also be appreciated by one skilled in the art,accessory support base 64 may alternatively have one or more protrusionssuch as bolts, pins, rods, shanks, etc. on its sides 66, forward face67, rearward face 68 and/or top 69. In addition to securing accessoryattachment base 70 to accessory support base 64, protrusions may beuseful for serving as an attachment point for accessories, such as ananti-decoupler device, that may pivot on the protrusion to and from anengaged and disengaged position. Bores, throughbores and protrusionsdescribed in this paragraph may not only be applied to the surfaces ofaccessory support base 64, but also may be applied to surfaces on theindustry standard ball mount as well.

In conjunction with inventive assembly 10, the following list (intendedto be illustrative and not exhaustive) of conventional hitch accessoriescan be attached to the accessory system: hitch coupling alignmentdevices, anti-decoupler devices, accessory receiver tube(s), brakelights, taillights, indicia plates, bumper sticker holders, hitch plugs,license plate frames or holders, additional ball mounts, receiverextension/adapter/reducer, tow ring, shackle, tow hook, bicycle carrier,ski rack, canoe rack, ladder rack, luggage rack, truck extension, sparetire carrier, gas can carrier, steps, carry all, ATV carrier, grillcarrier, cargo basket, ATV tie-down system, motorcycle carrier, wheelchair carrier, pet carrier, pet step, light bar, winch mount, generatorstand, tree stand holder, bow holder, gun rack, fishing rod carrier, iceauger carrier, bucket carrier, crate carrier, tool carrier, tool box,cargo box, work bench, chain saw carrier, extension cord reel, gardenhose reel, and seed and salt spreader, and numerous other accessories.

In lieu of ball mount platform being forged as one piece includingaccessory support base 64, in another embodiment, as shown in FIG. 4,accessory support base 64 may be a separate piece bolted or welded to anindustry standard ball mount platform. In another embodiment, accessorysupport base 64 may be bolted, welded or pinned to the shank, sleeve orhead of a weight distribution hitch or to the shank or sleeve of anadjustable height ball mount as shown in FIGS. 5 and 6, respectively. Inanother embodiment, as shown in FIG. 7, accessory support base 64 may bewelded to the top of an exposed shank of a conventional ball mountbetween the ball mount platform and the hitch receiver when the ballmount shank is engaged by the hitch receiver of a vehicle.Alternatively, accessory support base 64 may be welded to the topside,bottom side and/or sides of an exposed shank of any ball mount shank orother hitch-mounted accessory shank, and not limited to ball mountshanks including a platform such as a double-ball mount without aplatform as shown in FIGS. 7A and 8A. This exposed shank is common inthe design of many commercial hitch systems. In lieu of accessorysupport base 64 being welded directly to the top side of an exposedshank of a conventional ball mount between the ball mount platform andthe hitch receiver, accessory support base 64 may, as shown in FIG. 8,alternatively be welded to a tube 64T that serves as a collar or sleevethat fits over the exposed ball mount shank.

Accessory support base 64 need not be a continuation of the same steelbar comprising ball mount platform 60 as shown in FIGS. 7 and 8, but maybe configured from various shaped and size materials. For example, FIGS.7B and 8B show accessory support base 64 consisting of square tubingwith apertures 65, although round or other shaped tubing could beemployed as well.

FIGS. 7C and 8C show accessory support base 64 being comprised of ahexagon-shaped shank with apertures 65, although round and other shapedshanks could be employed as well.

FIGS. 7D and 8D show accessory support base being comprised of ahexagon-shaped shank on a mounting flange base with apertures 65. Thisembodiment may utilize the upper portion (flange and post) of anyinterchangeable hitch ball assembly to function as accessory supportbase 64. Accessory support base 64 of the embodiments of FIGS. 7B, 8B,7C, 8C, 7D and 8D may be solid or hollow and consist of an internaland/or external thread convolution.

Additionally, as shown in FIG. 8E, accessory support base 64 may also beuseful and serve as a support member for bracing and/or supportingstructure anchored from another location on ball mount assembly 10. Inthis embodiment, accessory support base 64 functions as a brace tosupport tow ring 73. Tow ring 73 has a round rear-section 74,mid-section 75, forward-section 76 and attachment legs 77. Attachmentlegs 77 are attached to the sides of shank 15, and accessory supportbase 64 serves as a brace to support tow ring 73 at its mid-section 75when accessory support base 64 is attached to tow ring 73 such as bywelding.

Additionally, as shown in FIG. 8F, in addition to attachment legs 77being welded to shank 15, attachment legs 77 of tow ring 73 may abut andalso be attached, such as by welding, to forward face 67 and/or sides 66of accessory support base 64. In this embodiment, rounded section 74 oftow ring 73 need not necessarily extend rearward and perpendicular toattachment legs 77, but may extend upward from attachment legs 77 asrepresented by the dotted line.

As shown in FIG. 8G, accessory support base 64 need not extendvertically beyond the distance of a conventional ball mount platform tosupport mid-section 75 or forward section 76 of tow ring 73. Thisembodiment is particularly useful on ball mounts with an increased drop.

Referring to FIG. 8H, there is shown an alternate tow ring embodiment ofthe assembly 10 useful for retrofitting a tow ring to existing ballmounts. In this embodiment, in lieu of tow ring 73 attachment legs 77being attached to shank 15 and/or accessory support base 64, attachmentlegs 77 are attached to collar 64T configured to engage a ball mountshank 15 or other accessory shank and maintained in position on shank 15between ball mount platform 60 and receiver R when ball mount shank 15is coupled to receiver R. In this embodiment, in lieu of accessorysupport base 64, tow ring mid-section 75 may be supported with the useof tow ring cross-member 78 and support post 79. Cross member 78 extendsbetween tow ring sides at mid-section 75 and support post 79 positionedbetween cross-member 78 and collar 64T.

In another embodiment, in lieu of accessory support base 64 beingconfigured like a shank that engages within accessory attachment base 70that is configured like a receiver, the configurations may be reversedwith accessory support base 64 being configured like a receiver toreceive and house accessory attachment base 70 that is configured like ashank and inserted into accessory support base 64. Additionally,although accessory support base 64 and accessory attachment base 70 areshown as rectangular in shape, they may be shaped in otherconfigurations such as round, square, oval, triangular, etc.

In another embodiment, in lieu of accessories being removably attachedto accessory support base 64, any accessory may be permanently affixedto accessory support base 64 as by welding and become a permanentfeature of the assembly 10. In this embodiment, when any accessory ispermanently affixed to accessory support base 64, as by welding, andbecomes a permanent feature of ball mount assembly 10, attachment base70 may be eliminated from the accessory, and the accessory directlywelded to accessory support base 64.

Referring to FIG. 8I, there is shown a forward side perspective view ofthe assembly 10. Gussets and other reinforcement elements may be addedas desired to any of the embodiments of this invention. FIG. 8I, as wellas several other Figs., shows gussets G for illustrative purposes. Ascan be appreciated by this illustration, accessory support base 64, inand of itself, is useful for, and functions as, a body guard or bumperguard, protecting the tow vehicle from unintended coupler impact whenbacking up to couple a trailer.

As previously stated, in lieu of accessories being removably attached toaccessory support base 64, any accessory may be permanently affixed toaccessory support base 64. FIG. 8J shows, as an illustrative example andnot as a limiting embodiment, tow ring 73 permanently attached as bywelding to accessory support base 64. If desirable, as shown in FIG. 8K,additional support bar 91 may be mounted on topside of shank 15 forwardof accessory support base 64.

As shown in FIG. 8L, gussets may be added as desirable to either the topside and/or bottom side of shank 15 and abut ball mount platform 60and/or accessory support base 64.

As shown in FIG. 8M, accessory support base 64 may itself be used as agusset to support additional structure such as receiver tube 92 asshown.

Referring to FIG. 8L1, there is shown a side elevation view of anembodiment similar to the embodiment of FIG. 8L, but, in lieu of towball shank being inserted through aperture 61 in ball mount platform 60,a tow ball 2 consisting only of a base 3 and ball sphere 4 without ashank 5 may be attached, as by welding, to topside of ball mountplatform 60 forward of aperture 61 in ball mount platform 60 as shown.In this embodiment, the inclusion of accessory support base 64 and towring 73 is optional. This embodiment may be applied to all theembodiments of this application containing single ball mount platform60.

Referring to FIG. 8L2, there is shown a side elevation view of analternate embodiment of the embodiment of FIG. 8L1. In this embodiment,ball mount base 3 is attached, as by welding, to underside of ball mountplatform 60 also forward of aperture 61 and the ball mount used in theinverted (rise) position, rather than the lowered position. In thisembodiment, the inclusion of accessory support base 64 is optional. Towring 73 may be affixed to accessory support base 64 as shown, or may beaffixed to shank 15 and/or ball mount platform 60 as illustrated in FIG.8L3. As can be appreciated by one skilled in the art, tow ring 73 neednot be mounted to the assembly in a position parallel with ball mountplatform 60, but may be mounted to the assembly in an acute or obtuseposition as well. In addition, it should be recognized that numerousmounting variations in the mounting of tow loop or tow ring 73 to theassembly are possible without departing from the subject matter withinthe scope of this invention. FIGS. 8L4 and 8L5 are just two alternatemethods of attaching tow loop or tow ring 73 to the assembly. Thisembodiment may be applied to all the embodiments of this applicationcontaining single ball mount platform 60.

In another embodiment, as shown in FIG. 8L6, unlike the embodiments ofFIGS. 8L1 through 8L5, ball mount platform 60 need not consist of bothan attached tow ball and aperture 61 with tow ball mounted forward ofaperture 61 to include tow ring 73. In this embodiment, tow ring 73 isattached to shank 15 and/or ball mount platform 60 when ball mountplatform 60 is an industry standard ball mount platform consisting ofone aperture 61. This embodiment may be applied to all the embodimentsof this application containing single ball mount platform 60.

Referring to FIG. 8N, in lieu of mounting tow ring 73 on accessorysupport base 64, in this embodiment, tow ring 73 may be mounted parallelwith shank 15 to any hitch accessory shank. As illustrative examples,and not as limited embodiments, FIGS. 8O, 8P and 8Q show tow ring 73mounted on a single ball, double ball and triple ball, ball mounts. Towring 73 is not limited to being rounded and unshaped as shown, but maybe of any shape or configuration resulting in a closed loop to whichchains, tow hooks and the like can be fastened.

Referring to FIG. 8R, there is shown a side elevation view of analternate embodiment of FIG. 1. In this embodiment, in lieu of accessorysupport base 64 being a vertical extension of ball mount platform 60,accessory support base 64 is mounted on tube 64T that serves as a collaror sleeve that slides on ball mount shank 15. Although FIG. 8R shows towring 73 attached to accessory support base 64, any accessory such as atow hook, shackle mount, receiver tube, etc. may be substituted in lieuthereof.

Referring to FIG. 8S, there is shown a side elevation view of anotherembodiment of FIG. 1. This embodiment incorporates embodiments of U.S.application Ser. No. 11/372,748, (herein incorporated by reference)filed on Mar. 10, 2006, into this application; specifically, ball mountplatform extension tab 6 of FIGS. 2A and 3A, tongue-type hitch 120 ofFIGS. 2B, 3B and 8, and/or lower flange 2 of FIGS. 3C, 11 and 12, aswell as steel spacer 21 of FIGS. 3C, 11 and 12. In this embodiment,lower ball mount attachment platform 93 is attached to underside of ballmount shank 15 forward of ball mount platform 60. Steel spacer 96 isplaced between ball mount platform 60 and lower ball mount attachmentplatform 93 aligned between throughbores 61 in ball mount platform 60and 95 in lower ball mount attachment platform 93. Steel spacer 96 maybe held in position on the assembly by tow ball shank when tow ball isinstalled and secured with cooperating fastener. Alternatively, steelspacer 96 may be positioned between ball mount platform 60 and lowerball mount attachment platform 93 in alignment with throughbores 61 and95 and permanently mounted in position to the assembly as by welding.Lower ball mount attachment platform 93 extends rearward of upper ballmount platform 60 and contains throughbore 94 in lower ball mountattachment platform 93 making it useful for coupling products configuredwith a bifurcated trailer tongue to the assembly with a clevis pin andother uses. The attachment of lower ball mount attachment platform 93 tothe underneath side of shank 15 is not restricted to the location onshank 15 as shown, but may be attached to the underside of shank 15 atany desired location including the most rearward position abutting ballmount platform 60. At its attachment surface, lower ball mountattachment platform 93 may even be welded to ball mount platform 60 inlieu of being attached to shank 15 and/or be welded to ball mountplatform 60 in addition to being welded to shank 15.

Referring to FIG. 28, there is shown a side elevation view of anembodiment similar to the embodiments of FIGS. 8R through 8U and 8Y1through 8Y6, but, in lieu of spacer 96 being hollow in construction, anattaching member or spacer 96 may be a solid spacer attached to theunderside of upper ball mount platform 60 and to the topside of lowerball mount platform 93, as by welding. In this embodiment, the tow ball2 need not consist of a shank 5, but ball sphere 4 and base 3 only. Thebase 3 of the tow ball 2 can be mounted to the topside of upper ballmount platform 60, such as by welding. In this embodiment, accessorysupport base 64 may be eliminated from the assembly, as spacer 96 mayfunction as an anchor point for attaching links, quick links, hooks,S-hooks, snap hooks, grab hooks, latch hooks, and safety latch hooks onchains, tow ropes, tow straps or the like. As a matter of design choice,the distance between upper ball mount platform 60 and lower ball mountplatform 93 of all the embodiments of this invention employing dual ballmount platforms may be increased or decreased as desirable. Thisembodiment may be applied to all the embodiments of this applicationcontaining both and upper and lower ball mount platform.

Referring to FIG. 29, there is shown a side elevation view of anembodiment similar to the embodiment of FIG. 28, but, in lieu of spacer96 being a separate solid spacer placed between upper ball mountplatform 60 and lower ball mount platform 93, spacer 96 may be comprisedof tow ball shank 5. In this embodiment, tow ball shank 5 is insertedthrough aperture 61 in upper ball mount platform 60 and when tow ballbase 3 is seated on topside of upper ball mount platform 60, the bottomof tow ball shank 6 is attached to the topside of lower ball mountplatform 93, as by welding, resulting in tow ball shank 5 functioning asspacer 96. Tow ball shank 5 may or may not contain an external threadconvolution. The entire length of tow ball shank 5 may consist of asingle diameter or be sized in multiple stepped diameters as shown inFIG. 30. In this embodiment, accessory support base 64 may be eliminatedfrom the assembly, as spacer 96 may function as an anchor point forattaching links, quick links, hooks, S-hooks, snap hooks, grab hooks,latch hooks, and safety latch hooks on chains, tow ropes, tow straps orthe like. This embodiment may also be applied to all the embodiments ofthis application containing both and upper and lower ball mountplatform.

In another embodiment, as shown in FIG. 31, tow ball 2 need not bemounted to ball mount platform 60, but may be mounted to shank 15.

In another embodiment, the embodiments of FIGS. 28 and 29 may bemodified wherein lower ball mount platform 93 does not extend rearwardof upper ball mount platform 60, but lower ball mount platform 93 issymmetrical to upper ball mount platform 60 and does not includeaperture 95 as shown in FIGS. 32 and 33.

Referring to FIG. 8T, there is shown a side elevation view of anembodiment similar to that of FIG. 8S, but, in lieu of comprising ballmount shank 15 for attaching the assembly to a tow vehicle's receiver,ball mount platform 60 is attached or bolted to a tow vehicle notequipped with a receiver hitch via throughbore 97 in ball mount platform60.

Referring to FIG. 8U, there is shown a side elevation view of anotherembodiment similar to the embodiment of FIG. 8S. In this embodiment, inlieu of accessory support base 64 and lower ball mount attachmentplatform 93 being attached to ball mount shank 15, accessory supportbase 64 and lower ball mount attachment platform 93 are mounted on tube64T that serves as a collar or sleeve that slides on ball mount shank15. For the sleeve mounted assembly to be removable from the entireassembly, steel spacer 96 may be attached only on one end to either ballmount platform 60 or lower ball mount attachment platform 93, or notattached at all and used as a separate removable spacer. Sleeve 64T isattached to the ball mount assembly by sliding the forward end of ballmount shank 15 through sleeve 64T until apertures 61 in ball mountplatform 60 and 95 in lower ball mount attachment platform 93 arealigned. Tube 64T is maintained in position and lower ball mountattachment platform 93 supported in position with the installation of atow ball. When tube 64T is properly positioned and apertures 61 and 95aligned, steel spacer 96 is positioned between ball mount platform 60and lower ball mount attachment platform 93 also in alignment withapertures 61 and 95. The shank of a tow ball is inserted throughaperture 61 in ball mount platform 60, through steel spacer 96 andthrough aperture 95 in lower ball mount attachment platform 93 until thetow ball flange is seated on top of ball mount platform 60 and the towball shank protrudes beneath lower ball mount attachment platform 93.Tube 64T is firmly supported in position when tow ball fastener isattached to tow ball shank and tightened to the proper torque.

Referring to FIGS. 8V, 8W and 8X, there is shown another embodiment ofthe assembly. This embodiment includes lower ball mount attachmentplatform support sleeve 101 as shown in FIG. 8V. Lower ball mountattachment platform support sleeve 101 is a hollow, four-sided sleevethat is attached to the bottom of a hitch ball shank and used to engageand support lower ball mount attachment platform 93 as shown in FIGS. 8Wand 8X. Lower ball mount attachment platform support sleeve 101 hasfastener 105 attached to its upper side. Fastener 105 has internalthreaded throughbore 107 to cooperate with external threads on tow ballshank for fastening lower ball mount attachment platform support sleeve101 to trailer ball shank. Lower ball mount attachment platform supportsleeve 101 is attached to trailer ball shank by turning or threadinglower ball mount attachment platform support sleeve 101 ontoconventional trailer ball shank. This embodiment is a sleeve-mountedassembly similar to the embodiment of FIG. 8U, but lower ball mountattachment platform 93 is supported in the installed position by lowerball mount attachment platform support sleeve 101, rather than by towball shank passing through aperture 95 in lower ball mount attachmentplatform 93. Like the embodiment of FIG. 8U, sleeve 64T is attached tothe ball mount assembly by sliding the forward end of ball mount shank15 through sleeve 64T while also sliding lower ball mount attachmentplatform 93 through lower ball mount attachment platform support sleeve101. Tube 64T is secured in position on shank 15 by ball mount platform60 and the vehicle's receiver R when the ball mount assembly isinstalled in and pinned to the tow vehicle's receiver R. FIG. 8X showsan alternate embodiment wherein accessory support base 64 is eliminatedfrom the ball mount assembly.

The embodiments previously described are preferred embodiments. Itshould be easily recognized by one skilled in the art that utilizing theteachings of this application numerous alternate configurations can beemployed to achieve the same results and benefits of the preferredembodiments without departing from the scope of this invention. FIGS.8Y1 through 8Y6 and FIGS. 8Y6A and 31 show, as illustrative examples andnot as limiting embodiments, alternate configurations or embodiments ofthis maximum security/maximum versatility ball mount assembly invention.As an example, FIG. 8Y6A shows a modified embodiment of the embodimentof FIG. 8Y6 wherein accessory support base 64 and tow ring 73 areeliminated from the assembly and tow hook TH substituted in lieuthereof. In this embodiment the inclusion of lower ball mount platform93 and spacer 96 on the assembly is optional.

Referring to FIGS. 9, 10 and 11 there is shown exploded views and aperspective view of another embodiment of the present invention referredto by Reference Number 200. maximum security/maximum versatility ballmount assembly 200 is comprised of the dual hitch engagement pinsubassembly 30 of the embodiment of Reference Number 10 as describedabove with modified dual hitch engagement pins 20. Additionally FIG. 9illustrates accessory support base 64 being utilized to support gusset Gas well as supporting accessory receiver tube R.

In the illustrated embodiment, which is useful for retrofitting theshanks of existing ball mounts and other accessories, at least one ofthe dual hitch engagement pins 20 of subassembly 30 has a center bore 22for attaching an engagement pin retractor inhibitor 24 to at least oneof the engagement pins 20. When the maximum security/maximum versatilityball mount assembly is attached to the receiver R and the dual hitchengagement pins 20 are in the extended position, the shank 23 ofengagement pin retractor inhibitor 24 is inserted into center bore 22 ofengagement pin 20 and attached thereto, thus, preventing the engagementpin 20 from being retracted. Hitch engagement pin 20 is prevented frombeing retracted since the body of the engagement pin retractor inhibitor24 is larger in diameter than the aperture 64 in the receiver R.Engagement pin retractor inhibitor 24 may also be a locking mechanismthat is locked to engagement pin 20 preventing unintentional orunauthorized removal.

Alternatively, with center bore 22 in both hitch engagement pins 20, alocking hitch pin with a small diameter shank can be inserted throughboth hitch engagement pins 20 and locked into place.

As can easily be understood and appreciated by one skilled in the art,optimal mechanical performance of the maximum security/maximumversatility ball mount assemblies 10, 200 is achieved and maintained byshielding the assembly's integral components from dirt and/or rustparticles. Thus, ball mount shank 15 may include, as shown in FIG. 12,inventive shank end cap 80. Shank end cap 80 is preferably made ofplastic or any other suitable material, and, when inserted and installedin the forward end 16 of hollow ball mount shank 15, eliminates orreduces dirt and or rust particles from entering the ball mount shankcavity. As designed, with all four sides 82 of shank end cap 80 havingsymmetrical beveled surfaces narrowing towards the center, shank end cap80 is also extremely useful as an alignment aid when inserting forwardend 16 of ball mount shank 15 into the tow vehicle's receiver R. Shankend cap 80 has an insert shank 84 that is inserted into the hollowcavity of forward end 16 of ball mount shank 15, and a head 86. Head 86has four sides 82, a rearward end 88 that abuts insert shank 84, andforward face 90. As shown in FIG. 12, all four sides 82 are beveled fromthe rearward end 88 of head 86 and narrowing at forward face 90. Head 86may have the beveled edge on only one side and still be effective as analignment aid when inserting ball mount shank 15 into the tow vehicle'sreceiver R. Thus, head 86 may have a beveled surface on one, two, three,or all four sides. Shank end cap 80 may be made from solid stock or canbe a hollow end cap, and is not limited to use on a ball mount shank,but may be used on the shank of any other hitch mounted accessory aswell.

Alternatively, in lieu of shank end cap 80 having insert shank 84, shankend cap 80 may consist of just head 86 for use on a solid ball mountshank. As shown in FIG. 13, in this embodiment, double-sided tape, amagnetic surface or the like can be applied to rearward end 88 of head86 and shank end cap 80 affixed to solid ball mount shank 15. As shownin FIG. 14, as another alternative of this embodiment, beveled ends maybe forged or machined directly on forward end 16 of ball mount shank 15that is inserted into the receiver R. Additionally, in anotherembodiment as shown in FIG. 15, the sides of the forward end 16 ofhollow ball mount shank 15 may be bent inward resulting in a beveledlike surface on the forward end 16 of ball mount shank 15.

Referring to FIG. 16, there is shown an exploded view of anotherembodiment of FIG. 1. In this embodiment referred to as Reference Number300, the self-engaging receiver/hitch pin assembly is mounted on a solidshank 15. Hitch pin bore 18 serves as the housing or cavity for dualhitch engagement pins 20 and biasing means, such as spring 21. Dual sideplates 36 are attached to corresponding recessed areas 302 of shank 15with screws 39 or other method such as welded. Dual hitch engagementpins 20 may contain center bore 22 and employ the engagement pinretractor inhibitor 24 or locking hitch pin with a small diameter shankas described in the previous embodiment. Additionally FIG. 16illustrates accessory support base 64 being utilized to accommodate theattachment of a tow ball or alternatively the attachment of other hitchaccessories such as a tow hook. As shown, other hitch accessories may bemounted on a hollow sleeve that engages accessory support base 64 andsecured to accessory support base 64 with a pin and clip as shown or anyother desirable method such as nut and bolt.

Referring to FIG. 17, there is shown an exploded view of anotherembodiment of FIG. 1 referred to as Reference Number 400. In thisembodiment, dual hitch engagement pin subassembly 30 is placed withinshank 15 through a cut-out in the web of the I-beam shank correspondingto the dimensions of subassembly 30. Dual side plates 36 are attached tocorresponding recessed areas 305 of shank upper and lower flanges withscrews 39 or other means such as by welding. Dual hitch engagement pins20 may contain center bore 22 and employ the engagement pin retractorinhibitor 24 or locking hitch pin with a small diameter shank asdescribed in the previous embodiment. Additionally FIG. 17 illustratesaccessory support base 64 being utilized to support gusset G as well assupporting accessory tow hook.

Referring to FIG. 18, there is shown an exploded view of anotherembodiment of FIG. 1. In this embodiment referred to as Reference Number500, for illustrative purposes, the self-engaging receiver/hitch pinsubassembly 50 is mounted in the shank of tow ring 502. As can beappreciated by one skilled in the art, the self-engaging receiver/hitchpin assembly of the present invention can be applied to the shank ofnumerous hitch mounted products. Such embodiments are meant to beincluded within the scope of this application.

Referring to FIG. 19, there is shown a side elevation view of analternate embodiment of the embodiments of FIGS. 8E, 8F, 8G and 8N. Inthis embodiment, in lieu of tow ring legs 77 being mounted on shank 15parallel with shank 15 as shown in FIG. 8N, tow ring legs 77 are mountedto sides of shank 15 as shown. This embodiment is particularly usefulfor ball mounts with a drop ball mount platform 60.

Referring to FIG. 19A, there is shown a side elevation view of anembodiment similar to the embodiment of FIG. 19. In this embodiment, inlieu mounting the legs of U-shaped tow ring 73 to the sides of ballmount shank 15, a D-ring shaped tow ring 73 is attached to the top ofball mount shank 15 forward of the top of ball mount platform 60. D-ringtow ring 73 may abut the forward side of ball mount platform 60 and beattached to it, as by welding, as well as being attached, as by welding,to the top of shank 15.

Alternatively, as shown in FIG. 19B, tow ring 73 may be eliminated fromthe assembly, and tow hook TH substituted in lieu thereof. In thisembodiment, tow hook TH is attached to the top of ball mount shank 15forward of the top of ball mount platform 60. Tow hook TH may abut theforward side of ball mount platform 60 and be attached to it, as bywelding, as well as being attached, as by welding, to the top of shank15.

Referring to FIG. 20, there is shown a side elevation view of analternate embodiment of the embodiment of FIG. 8N. In this embodiment,in lieu of tow ring 73 being mounted to shank 15, tow ring 73 is mountedto rearward face of ball mount platform 60 as shown. This embodiment isalso particularly useful for ball mounts with a drop ball mount platform60.

Referring to FIG. 21, there is shown a side elevation view of analternate embodiment of the embodiment of FIG. 19. This embodimentincorporates receiver tube 97 mounted to ball mount platform 60 and thetopside of shank 15. This embodiment is particularly useful for ballmounts with a drop ball mount platform 60.

Referring to FIG. 22, there is shown a side elevation view of analternate embodiment of the embodiment of FIG. 20. In this embodiment,in lieu of receiver tube 97 being mounted to shank 15, receiver tube 97is mounted to ball mount platform 60 and spacer bar 91, which is mountedto ball mount shank 15. This embodiment is also particularly useful forball mounts with a drop ball mount platform 60.

Referring to FIG. 23, there is shown a side elevation view of analternate embodiment of the embodiment of FIG. 21. In this embodiment,tow ring 73 is eliminated from the assembly.

Referring to FIG. 24, there is shown a side elevation view of analternate embodiment of the embodiment of FIG. 22. In this embodiment,tow ring 73 is eliminated from the assembly.

Referring to FIG. 25, there is shown a side elevation view of analternate embodiment of the embodiment of FIG. 23. In this embodiment,in lieu of receiver tube 97 being mounted to the topside of shank 15,receiver tube 97 is mounted to the rearward face of ball mount platform60 as shown, and may include gusset G as desirable. This embodiment isuseful for ball mounts with a drop ball mount platform 60.

Referring to FIG. 26, there is shown a side elevation view of analternate embodiment of the embodiment of FIG. 8S. In this embodiment,in lieu of tow ring 73 being mounted to the top of accessory supportbase 64, receiver tube R is mounted to the top of accessory support base64 and tow ring 73 mounted between the bottom side of receiver tube Rand rearward face of accessory support base 64 as shown.

Referring to FIG. 27, there is shown a side elevation view of analternate embodiment of the embodiment of FIG. 8U. In this embodiment,in lieu of tow ring 73 being mounted to the top of accessory supportbase 64, receiver tube R is mounted to the top of accessory support base64 and tow ring 73 mounted between the bottom side of receiver tube Rand rearward face of accessory support base 64 as shown.

Any or all of the embodiments of this application may incorporatevertical hitch pin throughbore described, illustrated in U.S.application Ser. No. 11/732,117, filed on Apr. 2, 2007 (hereinincorporated by reference).

It is to be understood that the present invention is not limited to theembodiments described above but encompasses any and all embodimentswithin the scope of the following claims.

1. A vehicle ball mount assembly, comprising: a shank; a ball mountplatform connected to the shank; and a tow ball connectable to the ballmount platform; an accessory support base connected to the shank or theball mount platform; and a further attachment device carried on theaccessory support base.
 2. The vehicle ball mount assembly of claim 1,wherein the further attachment device comprises a throughbore.
 3. Thevehicle ball mount assembly of claim 1, wherein the accessory supportbase is unitary with the ball mount platform.
 4. The vehicle ball mountassembly of claim 1, wherein the accessory support base is a separatepiece attached to the ball mount platform.
 5. The vehicle ball mountassembly of claim 1, wherein the accessory support base includes a firstleg and a second leg.
 6. The vehicle ball mount assembly of claim 1,wherein the further attachment device comprises a tow ring.
 7. Thevehicle ball mount assembly of claim 1, wherein the accessory supportbase is attached to the ball mount platform, wherein a tow ring isconnected to the accessory support base, wherein a lower ball mountplatform is attached to the shank and extends below and beyond the ballmount platform, wherein a spacer is positioned between the ball mountplatform and the lower ball mount platform, wherein a tow ball shankextends through the spacer, and wherein the lower ball mount platformincludes a mounting bore.
 8. The vehicle ball mount assembly of claim 1,wherein the accessory support base is mounted on a collar configured toengage the shank, wherein a tow ring is attached to the accessorysupport base, wherein a lower ball mount platform is attached to thecollar and extends below and beyond the ball mount platform, wherein aspacer is positioned between the ball mount platform and the lower ballmount platform, wherein a tow ball shank extends through the spacer, andwherein the lower ball mount platform includes a mounting bore.
 9. Thevehicle ball mount assembly of claim 1, wherein the accessory supportbase is mounted on a collar configured to engage the shank, wherein atow ring is attached to the accessory support base, wherein a lower ballmount platform is attached to the collar and extends below and beyondthe ball mount platform, wherein a support sleeve is configured toreleasably engage the lower ball mount platform, and wherein a tow ballshank engages the support sleeve.
 10. The vehicle ball mount assembly,comprising: a shank; an upper platform and a lower platform connected tothe shank; an attaching member extending between the upper platform andthe lower platform; and a tow ball mounted on the upper platform. 11.The assembly of claim 10, wherein the tow ball has a base welded to thetop of the upper platform.
 12. The assembly of claim 10, wherein the towball has a shank, with the shank forming the attachment member.
 13. Theassembly of claim 10, wherein the lower platform extends beyond theupper platform.
 14. The assembly of claim 10, including an apertureformed in at least one of the upper or lower platforms.
 15. The assemblyof claim 14, wherein the aperture is formed in the lower platformfarther from the shank and the attaching member.
 16. The assembly ofclaim 10, wherein the upper platform and lower platform are formed by aU-shaped member attached to the shank.
 17. The assembly of claim 10,wherein the upper platform is attached to the top of the shank and thelower platform is attached to the bottom of the shank.